Fast Multi-Objective CMODE-type Optimization of Electric Machines for Multicore Desktop Computers
Institute of Electrical and Electronics Engineers (IEEE)
2015 IEEE Energy Conversion Congress and Exposition (ECCE)
Large-scale design optimization of electric machines is oftentimes practiced to achieve a set of objectives, such as the minimization of cost and power loss, under a set of constraints, such as maximum permissible torque ripple. Accordingly, the design optimization of electric machines can be regarded as a constrained optimization problem (COP). Evolutionary algorithms (EA) used in the design optimization of electric machines including the Differential Evolution, which has received considerable attention during recent years, are unconstrained optimization methods that need additional mechanisms to handle COPs. In this paper, a new optimization algorithm that features Combined Multi-objective Optimization with Differential Evolution (CMODE) has been developed and implemented in the design optimization of electric machines. A thorough comparison is conducted between the two counterpart optimization algorithms, CMODE and DE, to demonstrate the CMODEs superiority in terms of convergence rate and constraint handling. More importantly, CMODE requires a less number of simultaneous processing units which makes its implementation best suited for state-of-the-art desktop computers reducing the need for High Performance Computing systems and associated software licenses.
Fatemi, Alireza; Ionel, Dan M.; Demerdash, Nabeel; and Nehl, Thomas W., "Fast Multi-Objective CMODE-type Optimization of Electric Machines for Multicore Desktop Computers" (2015). Electrical and Computer Engineering Faculty Research and Publications. 215.